Toponomic Quantum Computation

C. Chryssomalakos; L. Hanotel; E. Guzmán-González; E. Serrano-Ensástiga

doi:10.1142/S021773232250184

Toponomic Quantum Computation

Quantum Physics 2023-01-24 v1 Mathematical Physics math.MP

Authors: C. Chryssomalakos , L. Hanotel , E. Guzmán-González , E. Serrano-Ensástiga

View on arXiv ↗ PDF ↗ DOI ↗

Abstract

Holonomic quantum computation makes use of non-abelian geometric phases, associated to the evolution of a subspace of quantum states, to encode logical gates. We identify a special class of subspaces, for which a sequence of rotations results in a non-abelian holonomy of a topological nature, so that it is invariant under any $SO(3)$ -perturbation. Making use of a Majorana-like stellar representation for subspaces, we give explicit examples of topological-holonomic (or toponomic) NOT and CNOT gates.

Keywords

holonomic quantum computation quantum algebra topological quantum field theory

Cite

@article{arxiv.2202.01973,
  title  = {Toponomic Quantum Computation},
  author = {C. Chryssomalakos and L. Hanotel and E. Guzmán-González and E. Serrano-Ensástiga},
  journal= {arXiv preprint arXiv:2202.01973},
  year   = {2023}
}

Comments

5 pages, 4 figures

Toponomic Quantum Computation

Abstract

Keywords

Cite

Comments

Related papers